KR20100092955A - Method and device for operating an electric drive with the aid of a phase angle control - Google Patents

Abstract

The present invention relates to a method of operating an electric motor (2) using phase control, wherein when the amount of current falls below the holding current, the switching member (4), in particular, is connected by stopping the flow of current and applying the firing signal. Applying an alternating voltage to a series connection of the triac and the electric motor 2, determining a zero crossing time point of the virtual motor current when the switching member 4 is connected and virtual Switching on the switching member 4 at a switch-on time that depends on the time of zero crossing of the motor current.

Description

Method and device for operating an electric drive with the aid of a phase angle control

The present invention relates to a trigger of an electric machine using so-called phase control.

In conventional electric drives, such as, for example, electric motors with commutators, a phase shift occurs between the applied voltage and the motor current. This phase shift is usually load dependent. The output of such an electric motor is generally endless, and can be adjusted using so-called phase control. Phase control is a method for regulating the output of an electrical machine that is operated with alternating voltage. In phase control, the motor current is delayed and activated after zero crossing of the supply alternating voltage, and is active until the next zero crossing.

Phase control can be performed by triacs. The triac supplies current from the firing pulse and after the triac firing until it reaches a minimum current, the so-called holding current. Triac's firing results in non-ignition of the triac when the motor current determined by the phase shift is lower than the holding current. In this case the electric motor is not triggered during the actual half wave. This occurs when the firing is made in the triac which is still conductive. This causes disturbances in the operation of the electric motor, for example, significant noise generation, increased EMC-emissions, output losses and the like.

In order to ensure that the triac is always fired in the range where motor currents higher than the holding current can be expected, the triac is generally fired only after a defined minimum time after zero crossing of the applied voltage. The minimum time specified is determined to ensure that the triac's firing takes place if the current is high enough. Since the phase shift between the applied voltage and the motor current depends on the load, this prescribed minimum time adds to the phase shift corresponding to the maximum phase shift seen throughout the system and possible component variations of the triac, such as switching time. It is determined from the safety time. Thus, in an operating state where the phase shift between the applied voltage and the motor current is less than the maximum phase shift, a larger time interval is given during which the triac's firing is prevented.

This in particular increases the generation of harmonics, which reduces the carbon durability in the commutator's brush and increases the interference radiation of the electric motor due to the increase in arc generation. In addition, additional heating of the motor occurs due to increased output loss.

It is an object of the present invention to provide a method and control apparatus for operating an electric motor using phase control in which the above disadvantages do not appear.

This object is achieved by a method of operating an electric motor according to claim 1 and a control device for an electric motor according to the independent claims.

Other embodiments of the invention are set forth in the dependent claims.

According to a first aspect, a method of operating an electric motor using phase control is provided. The method includes the following steps:

Of switching elements, in particular triacs and electric motors, which are connected by application of a firing signal, i.e. become conductive and when the amount of current is below the holding current, are interrupted, i.e. high-impedance. Applying an alternating voltage to the series connection,

Determining a virtual zero crossing time point of the motor current that may flow when the switching member is connected, and

Switching on the switching member at a switch-on time, which depends on the time of virtual zero crossing of the motor current.

The idea of the method is that it is not possible to preset the minimum specified time before executing the firing of the triac after zero crossing of the voltage applied to the electric motor. Depending on the calculated time of zero crossing, the earliest time at which the firing of the switching member can be allowed again can be calculated corresponding to the operating state of the motor system. The virtual zero crossing of the motor current corresponds to the point of zero crossing of the motor current in the permanently connected (conductive) switching member.

In addition, the switching member is switched on at a point in time that depends on the provided adjustment variable indicative of the desired output of the electric motor. This allows the electric motor to be triggered almost endlessly.

The determination of the virtual zero crossing timing of the motor current may be made according to the switch off timing of the switching member. In particular, the switch off timing of the switching member may be determined as the timing at which the voltage jump of the voltage applied through the switching member appears. This is a particularly simple detection of the zero crossing time point and no other current measurement is required at this detection.

According to an embodiment, the time point at which the voltage jump of the voltage applied through the switching member appears may be determined as the time point at which the voltage jump appears, in which the switching member is not switched on.

In addition, the switching on time can be determined by adding a duration to the time of zero crossing, the duration being selected according to the frequency of the fixed or applied alternating voltage and / or the holding current of the switching member. This simply allows the earliest switch-on time to be determined.

According to another aspect, a motor control unit for operation of an electric motor using phase control is provided, an alternating voltage is applied to the series connection of the electric motor and the switching member, in particular the triac, and the switching member is applied by the application of a firing signal. And the flow of current is stopped when the amount of current falls below the holding current. The motor control unit includes a detection unit for determining a time point of virtual zero crossing of the motor current that may flow when the switching member is connected, and a control device for switching on the switching member at a time depending on the time point of virtual zero crossing of the motor current. It includes.

According to another aspect, a motor system having the motor control unit, the electric motor and the switching member is provided, wherein the electric motor and the switching member are connected in series with each other.

According to another aspect, there is provided a computer program comprising program code for executing the method when executed in a data processing unit.

Preferred embodiments of the present invention are described in detail below with reference to the accompanying drawings.

According to the present invention, there is provided a method and control apparatus for operating an electric motor using phase control, in which harmonic generation is reduced and no further heating of the motor occurs.

1 is a schematic diagram of a motor system having an electric motor, a triac and a control unit according to an embodiment of the invention.
FIG. 2 is a signal-time-diagram showing a method of determining the earliest firing point in the motor system of FIG.

1 shows a motor system 1 with an electric machine 2, a control unit 3 and a switching member 4. The electric machine 2 is provided in the form of an electric motor with a commutator. The electric motor 2 must be triggered with a variable output. To this end, the electric motor 2 is connected in series to the switching element 4 and (optional) current limiting resistor 8 between the first and second alternating voltage lines 5, 6.

The switching member 4 is preferably formed as a triac 4, which may be in a non-conductive and conductive state. The triac 4 becomes conductive when a pulse voltage is applied to its control connection and the magnitude of the current flowing through the triac exceeds the prescribed limit. The amount of minimum current flowing through the triac 4, in which firing can take place, is called the holding current. According to the current direction, the triac 4 has a positive holding current with respect to the positive current direction and a negative holding current with respect to the negative current direction. The current directions can be different.

In order to effect phase control, the triac 4 is triggered by the control unit 3. The phase control allows the motor current to flow without phase control only during a predetermined time slice during the half wave of the motor current. The predetermined time intercept is determined by the adjustment variable S provided to the control unit 3. The adjustment variable S determines the output which triggers the electric motor 2.

Since the trigger of the triac 4 is preferably made for a duration that depends on the adjustment variable S after zero crossing of the motor current, the motor current is from the firing time point (predetermined time after zero crossing of the motor current) of the motor current. Conductivity remains only until zero crossing is reached again (access). In this way, the output provided to the electric motor 2 is reduced to the magnitude of the maximum output (possible without phase control).

It is difficult to accurately determine the timing of zero crossing of the motor current because the curve of the motor current is generally not detected. Also, the temporal position of the zero crossing in phase control during every half wave cannot be directly determined.

An alternating voltage U _W applied to the electric motor is provided to the control unit 3. Of the motor current I due to the load dependent variable phase shift between the alternating voltage U _W applied to the series connection of the electric motor 2 and the triac 4 and the motor current flowing through the electric motor 2. Zero crossings cannot be detected correctly. However, the existing method of determining a predetermined minimum time from the zero crossing time point of the voltage applied to the electric motor 2 is adapted to the maximum possible phase shift between the motor current and the applied voltage, so that the phase shift is further increased. The disadvantage is that it is not optimal for other small operating states.

Thus, the detection unit 10 of the control unit 3 taps the voltage potential at the node K between the triac 4 and the electric motor 2 to detect the time of zero crossing of the motor current. It is proposed to provide. A voltage drop of about 2 V generally occurs through the conductive triac 4, and when the triac is blocked, the triac has high impedance so that a full alternating voltage is applied through the triac. By monitoring the voltage between the second alternating voltage line 6 and the node K, a voltage jump is detected by the triac 4, so that the control device 11 of the control unit 3 is connected to the triac 4. The switching point can be determined. This is done by the detection unit 10. That is, a voltage jump is detected at the time of the firing of the triac 4, that is, at the time of connection, and at the time of switching off of the triac 4. Since the firing is made by the control device 11, the voltage jump can be determined by the control device 11 at the switching point at which the triac 4 is switched off, and thus the voltage at the time of switching on of the triac 4. The jump is ignored. The voltage jump is detected because the voltage jump at the time of switching on of the triac 4 is a firing signal at the same time.

The voltage jump due to the switching off of the triac 4 is used to detect the point in time when the triac 4 can be fired again. The switch off timing of the triac 4 can be assumed to be approximately zero crossing of the motor current. Alternatively, other variables may be detected depending on the corresponding holding current of the triac 4, the frequency of the alternating voltage and the zero crossing time of the motor current. The point at which retriggering of the triac 4 is possible is detected by adding a delay time until the motor current corresponds to a current value greater than the corresponding holding current of the triac 4.

The control unit 3 can in particular be able to detect the point of the voltage jump due to the switching of the triac 4, for example to evaluate the change in the alternating voltage, in particular the voltage at the node K and the second alternating voltage line ( It can be implemented as a microcontroller that evaluates the voltage difference between the voltages of 6).

2 shows a signal-time-diagram showing the alternating voltage U _W applied to the electric motor 2, the following motor current i and the voltage U _K between the second alternating voltage line and the node K. FIG. This is shown. The voltage jump at the firing point t _z and the switch off point t _A can be detected by the control unit 3.

Adjustments to the earliest possible firing time points offer the advantage of significantly increasing brush durability, since arc formation is reduced due to less harmonic content. Similarly, EMC emissions are reduced. This can also reduce the self heating of the electric motor.

2 electric motor
4 switching member

Claims (9)

As the operation method of the electric motor 2 using the phase control,
If the amount of current falls below the holding current, the flow of current is interrupted and alternating current is connected to a series connection of the switching member 4, in particular the triac and the electric motor 2, which are connected by application of a firing signal. Applying a voltage,
Determining a virtual zero crossing time point of the motor current which may flow when the switching member 4 is connected, and
Switching on said switching member (4) at a switch-on time which depends on the time of virtual zero crossing of motor current. 2. A method according to claim 1, characterized in that the switching member is switched on at a time depending on the provided adjustment variable, which indicates a predetermined output of the electric motor (2). Method according to one of the preceding claims, characterized in that the timing of the virtual zero crossing of the motor current is determined depending on the switching off timing of the switching member (4). 4. The method according to claim 3, wherein the switching off point of the switching member 4 is determined as the point of time at which a voltage jump of the voltage applied through the switching member 4 appears. . 5. The phase control according to claim 4, wherein the time point at which the voltage jump of the voltage applied through the switching member 4 appears is determined as the time point at which the voltage jump appears, in which the switching member 4 is not switched on. Method of operation of the electric motor using the. 5. The switch-on time point is determined by adding a duration time to the time point of the voltage jump, the duration time being determined by the frequency of the fixed or applied alternating voltage and / or the holding current of the switching member 4. The method of operation of the electric motor using phase control, characterized in that selected depending on. An alternating voltage is applied to the series connection of the electric motor 2 and the switching member 4, in particular the triac, and the switching member is connected by the application of a firing signal. As a motor control unit for the operation of the electric motor 2 using phase control to stop,
A detection unit for determining the timing of the virtual zero crossing of the motor current which may flow when the switching member 4 is connected and
A motor control unit comprising a control device for switching on the switching member 4 at a time point dependent on the time point of virtual zero crossing of the motor current. A motor control unit according to claim 7, comprising the electric motor (2) and the switching member (4) connected in series with each other. A computer program comprising program code for carrying out the method according to any one of claims 1 to 6 when executed in a data processing unit.

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